FR3013342A1 - MOBILE ELEVATOR DEVICE FOR THE INSTALLATION OF AN AUTONOMOUS SCAPHANDER ON AN SUBCQUATIC DIVER - Google Patents

Abstract

The weight of a scuba gear including the BCD, the scuba tanks and all accessories is very important out of the water and therefore difficult to move, lift and manipulate to install on the back of divers of different morphologies (small, medium, large). The present invention relates to a mobile and transportable device consisting of a mobile structure (SM) sliding on a support structure (SP) by means of a pneumatic cylinder (VP) on which is connected the tip of the umbilicus (OD) of the Direct System (DS) of the stabilizer vest (G) of the scuba, so as to insufflate in said cylinder the compressed gas contained in the scuba tank (s) and to animate the mobile structure (SM) on and with respect to the carrying structure (SP). The filling operations of the gas cylinder (A) from the diving cylinder and the release of this gas are controlled from a control means (CM) actuated by the plunger.

Description

MOBILE ELEVATOR DEVICE FOR THE INSTALLATION OF AN AUTONOMOUS SCAFFOLD ON A SUBAQUATIC DIVER.

Scuba diving is an activity consisting of staying underwater, most often equipped with a set of equipment designated by the term "autonomous scuba" and which consists mainly of an isothermal combination, a mask, fins, a ballast, a stabilizing vest equipped with a "direct system" and one or more bottles of diving containing most often compressed air at about 200 bar, which is brought to the diver by means of a regulator. Other accessories are associated with this equipment to control pressure, depth and manage diving.

Scuba diving is known to be an activity practiced professionally or as a recreational sport. Various sectors of the industry use this activity, particularly in the marine environment for the exploration or installation of submerged infrastructures or in various military applications.

In terms of leisure scuba diving with bottles is rather practiced for exploration and discovery of the seabed, fishing is very controlled or in some cases prohibited. Diving bottles may contain various gas mixtures depending on the level of the diver but it is most often the air that is most used because of its free and the absence of specific requirements and materials. The heat exchange is greater in a liquid medium, the heat loss is relatively large during an extended stay in the water, which leads the diver to be equipped with a combination iso thermal called "wet" or "waterproof" according to the type of dive envisaged. To manage its buoyancy, the diver uses a stabilizer that can inflate or deflate to vary its ability to float more or less in the water. The stabilizing vest often has a device commonly called "Direct System", consisting essentially of a flexible tube connected at one of its ends to the compressed air bottle and at its end opposite another flexible tube which starts from the upper left side of the BC. The "direct system" proposes at least two buttons imperatively kept within reach of the diver. The first button designated by the term "inflator" makes it possible to open a valve and inflate the stabilizing vest. It operates by a simple tap of the finger, the valve closing 5 as soon as the button is released. The second button is a slow purge that only allows the evacuation of the air contained in the vest. Thus, by acting with a simple gesture on one and the other of these buttons, the diver can adjust its buoyancy according to the depth to which it is. Given the pressure of 200 bar exerted inside the bottles, the latter are most often made of steel sometimes reinforced with carbon or aluminum. They are associated with the regulator, Direct System, manometer etc., thus bringing to the scuba a very important weight handicapping manipulations out of water and particularly the installation on the back of the diver. Sensitized by this handling handicap before the dive, the author of the present invention has devised a mobile device and therefore capable of being driven to any place, making it possible to substantially facilitate the movement of a scuba apparatus and its installation on the back of a diver preparing for a scuba diving. The originality of this invention lies in the fact that the air contained in the bottles equipping the stabilizing vest is used to animate a cylinder of sufficient size and capacity and to raise the diving suit at the level of the torso of the diver, without obviously altering the air capacity necessary for diving. The transfer of air from the bottles to the cylinder is operated by means of the "Direct 25 System" of the suit of which the end of the umbilicus is connected to the adapted end of the pneumatic cylinder. The prior art analysis has disclosed a number of patents describing devices designed to displace or facilitate movement, maintain or manipulate all or part of a scuba suit, but none of these patents disclose a means of wearing a scuba diving suit at a torso's height by using a tiny portion of the compressed air from the bottles of the scuba gear.

Mention may be made, for example, of the international patent of English origin MCCMASKEY published on May 30, 2013 under the number W02013 / 077749, which for the same purpose concerns a device that is mechanically assisted and makes it possible to vertically move a base intended to support one or more diving bottles.

This device differs clearly from the present invention in that the vertical displacement of the diving bottle is operated by a mechanical means and not a pneumatic means. Among the patents having the same objective as that of the present invention, there is noted the US patent James WILK published on May 18, 2006 under the number US 2006/0102814 which describes a platform supporting one or more diving bottles, which is placed manually to a height close to that of the torso of a plunger so as to facilitate the installation of said bottles on the back of said plunger. It is clear from the analysis of the document that the platform supporting the diving bottles is placed at the chosen height by means of pins placed in holes, which differentiates the system from that of the present invention. Amongst the state of the art and in addition to the numerous devices using mechanically assisted and manually animated elevation, devices designed exclusively to move the diving bottles, associated or not with various other functions, will also be raised. For example in this category, the US patent Scot Morgan WILSON published on 01/11/2001 under the number US 2001/0035620 which combines a mobile support of diving bottles to a device for showering the diver. The present invention is characterized by the combination of several functions which are found individually in the existing patents, with that of using the air contained in the scuba diving cylinders of a scuba apparatus to animate the rise or fall vertical descent of said scuba and thus bring it to the height best suited to the morphology of the diver. Starting from the observation that the weight of the diving suit including the stabilizing vest, the diving tanks and all the accessories is very important out of water and therefore difficult to move, lift and manipulate to install on the back of divers of different morphologies (small, medium, large), the inventor imagined a device adjustable in height by injection of compressed air into a cylinder and therefore adjustable to the desired height depending on the volume of air injected. According to the preferred embodiment of the invention, the elevating mobile device consists of the functional association of at least two preferably metallic structures, one of said "mobile structure" moves vertically up and down and up and down on the other structure called "carrier structure", all of the two structures being made mobile by means of wheels adapted to travel on all types of terrain.

According to the preferred embodiment of the invention, the "carrier structure" on which and relative to which the "mobile structure" moves up and down and from below upwards, is preferably constituted by a metal support member, of characteristics and dimensions adapted to the weight supported, having in the lower part and on one of its main planes, one or more elements known as "element against support" to react and counterbalance the forces arising from the elevation of the "mobile structure" carrying the scuba gear team. According to the preferred embodiment of the invention, the "carrier structure" on which and relative to which the "mobile structure" moves up and down and from below upwards, is provided in its lower part and preferably from from the main plane opposite to the main plane bearing "element against support", wheels in number, size and configuration adapted and compatible with the mobility of the device of the invention on all terrains and in all circumstances, especially on flat ground, ground stony, sandy terrain, stairs, terraces terrace decks, etc.

According to the preferred embodiment of the invention, the "carrier structure" on which and relative to which the "moving structure" moves up and down and from below upwards, is provided at the bottom and from the one and / or the other of its two main planes of a preferably mechanical technical means for immobilizing it in position at a precise location when the displacement of the device is completed, in particular a technical means of immobilizing the wheels in rotation or raise them to let "element against support" on the ground, or any other technical means of immobilization.

According to the preferred embodiment of the invention, the "carrier structure" on which and relative to which the "moving structure" moves up and down and preferably upwards, preferably has on its main plane opposite to the main bearing plane "Element against support", a pneumatic cylinder associated with a connection element, of shape, dimensions and positioning adapted and compatible with the movements of the "mobile structure" relative to the "carrier structure" and the consecutive displacements of the scuba gear worn relative to said "carrier structure". According to the preferred embodiment of the invention, a portion of the pneumatic cylinder 10 associated with a connection element and fixed on a main plane of the "carrier structure" is secured locally at one or more points to the "mobile structure", in such a way that, as it is filled with a gas, for example air, the pneumatic jack causes the "mobile structure" of the device to rise on and with respect to the "carrying structure" until 'at the chosen level corresponding to the level of the 15 torso of the diver to equip and as and the extent of the escape of the gas it contains, causes the lowering of the "mobile structure" of the device on and with respect to the " carrier structure "up to the predetermined minimum level. According to another embodiment of the invention, a part of the pneumatic cylinder 20 associated with a connection element and fixed on a main plane of the "supporting structure" is joined locally at one or more points to the "mobile structure", in such a way that, as it is filled with a gas, for example air, the pneumatic cylinder causes the "mobile structure" of the device to be lowered on and with respect to the "supporting structure" until at the predetermined minimum level and as the gas contained therein is exhausted, causes the "mobile structure" to rise on and with respect to the "carrying structure" to the level of the torso of the diver to equip. According to the preferred embodiment of the invention, the pneumatic cylinder associated with a connection element, fixed on a main plane of the "carrier structure" is supplied with gas from the scuba bottle (s) worn, by means of of the Direct System umbilical of the said autonomous scuba apparatus, the end of which is connected to the connecting element of the pneumatic cylinder of the device.

According to the preferred embodiment of the invention, the mobile structure consists of a preferably metallic support element carrying perpendicular to one of its two main planes and at a suitable place and compatible with the operation of the device, a support plate form and adapted and compatible dimensions for supporting a scuba diving suit with its or its compressed air bottles. According to the preferred embodiment of the invention, the "mobile structure" is designed such that it slides freely on and with respect to the "carrier structure", under the action of the pneumatic cylinder and according to a range of motion sufficient to wear a SCUBA at the level of the torso of a diver, without constraining the umbilicus of the Direct System. According to the preferred embodiment of the invention, the movements from top to bottom and from bottom to top of the mobile structure on and with respect to the supporting structure are controlled by the manual action of the plunger acting on a control means. to firstly let the gas from the bottles into the pneumatic cylinder and secondly let said gas contained in said pneumatic cylinder escape.

According to the preferred embodiment of the invention, the amplitude of the movements of the pneumatic jack fixed on a main plane of the "supporting structure" is determined so as to limit the maximum height of raising and lowering of the " mobile structure "on and with respect to the" supporting structure ".

According to a different embodiment of the invention, the amplitude of the movements of the "moving structure" on the "carrier structure" is limited by the positioning of mechanical stops on one and / or the other of the structures. According to the preferred embodiment of the invention, the combination of the two structures: "mobile structure" and "supporting structure" constituting the device of the invention, is designed to be easily dismountable and / or foldable so as to reduce its congestion and facilitate its transport, for example in the trunk of a motor vehicle.

According to the preferred embodiment of the invention, all the two structures: "mobile structure" and "carrier structure" constituting the device of the invention, is provided with a preferably mechanical device to prohibit its operation c that is to say the movement of the "mobile structure" on the "carrier structure" and / or a preferably mechanical device to prohibit its movement. The following description with reference to the accompanying drawings as non-limiting examples, will better understand how the invention can be put into practice. Figure 1 is a perspective view of the device of the invention in elevated position at the height of the plunger torso. Figure 2 is a perspective view of the device of the invention in the low position. Figure 3 is a side view of the device of the invention in the upper position stabilizer vest installed on the plunger. Figure 4 is a side view of the device of the invention in the low position before elevation. FIG. 5 is a view of a dive stabilizing vest showing the Direct System and the umbilicus of said Direct System in the normal dive position. FIG. 6 is a view of a dive stabilizing vest showing the Direct System and the umbilicus of said Direct System in a detached position to be connected to the device of the invention. According to the preferred embodiment of the invention, the lifting mobile device consists of the functional association of at least two (SM) structures (SP), preferably metallic, of which a so-called "mobile structure" (SM) moves vertically from top to bottom and from bottom to top on the other structure called "carrier structure" (SP), the assembly of the two structures (SM) and (SP) assembled being rendered displaceable by means of wheels (RT) adapted to displacements on all types of land. 35 (see Fig 1, 2). According to the preferred embodiment of the invention, the "carrier structure" (SP) on which and relative to which the "movable structure" (SM) moves up and down and upwards, is preferably constituted by a metal support element (Cl), of characteristics and dimensions adapted to the weight supported, having in the lower part and on one of its two main planes, one or more elements called "element against support" (EC) to react and counterbalance the forces from the elevation of the "mobile structure" (SM) carrying the equipped scuba. (See Fig 1.2). According to the preferred embodiment of the invention, the "carrier structure" (SP) on which and relative to which the "mobile structure" (SM) moves up and down and upwards, is provided in its lower part and preferably from the main plane opposite to the main plane carrying the "element against support" (EC), wheels (RT) in number, size and configuration adapted and compatible with the mobility of the device of the invention on all terrain and in all circumstances, especially on flat ground, rocky terrain, sandy ground, stairs, deck boards, etc. (See Fig 1.2). According to the preferred embodiment of the invention, the "carrier structure" (SP) on which and relative to which the "mobile structure" (SM) moves up and down and from below upwards, is partially equipped low and from one and / or the other of its two main planes of a preferably mechanical technical means for immobilizing it in position at a precise location when the displacement of the device is completed, including a technical means of immobilize the wheels in rotation or raise them to let the "element against support" (EC) on the ground, or any other technical means of immobilization.

According to the preferred embodiment of the invention, the "carrier structure" (SP) on which and relative to which the "mobile structure" (SM) moves up and down and preferably upwards, preferably has on its main plane opposite to the main plane bearing the "element against support" (EC), a pneumatic cylinder (VP) associated with a connection element (TC), of suitable dimensions and positioning and compatible with the displacements of the "structure mobile "(SM) with respect to the" carrier structure "(SP) and the consecutive displacements of the scuba gear worn relative to said" carrier structure "(SP). (See Fig 1.2).

According to the preferred embodiment of the invention, a part of the pneumatic jack (VP) associated with a connection element (TC), fixed on a main plane of the "carrier structure" (SP) is secured locally and in one or several points to the "moving structure" (SM), so that as it is filled with a gas, for example air (A), the pneumatic cylinder (VP) causes the elevation of the "mobile structure" (SM) of the device on and with respect to the "supporting structure" (SP) up to the chosen level corresponding to the level of the torso of the diver to be equipped and as and when the escape of the gas (A) it contains causes the lowering of the "mobile structure" (SM) of the device on and with respect to the "carrier structure" (SP) 10 to the predetermined minimum level. According to another embodiment of the invention, a portion of the movable element of the pneumatic cylinder (VP) associated with a connection element (TC), fixed on a main plane of the "carrier structure" (SP) is secured locally and at one or more points to the "mobile structure" (SM), such that as it is filled with a gas, preferably air (A), the pneumatic cylinder (VP) causes the lowering of the "mobile structure" (SM) of the device on and with respect to the "carrier structure" (SP) to the predetermined minimum level and as the gas (A) is exhausted It contains, causes the elevation of the "mobile structure" (SM) on and with respect to the "carrier structure" (SP) up to the level of the torso of the plunger to be equipped. According to the preferred embodiment of the invention, the pneumatic cylinder (VP) associated with a connection element (TC) fixed on a main plane of the "carrier structure" (SP) is supplied with gas (A) from the pre-opened scuba diving cylinder or bottles of the scuba suit, using the umbilical of the Direct System (OD) of the scuba, whose end (RO) is connected to the connector (CO) of the connection element (TC) of the pneumatic cylinder (VP) of the device. According to the preferred embodiment of the invention, the "mobile structure" (SM) consists of a metal support element (C2) carrying perpendicular to its main axis and to one of its main planes, at a suitable place and compatible with the operation of the device, a support plate (BS) of shape and dimensions adapted and compatible to support a scuba diving suit (G) equipped with his or her bottles of compressed gas. According to the preferred embodiment of the invention, the "movable structure" (SM) is designed such that it slides freely on and with respect to the "carrier structure" (SP) under the action of the pneumatic cylinder (VP) and with a range of motion sufficient to wear a scuba suit equipped with its bottles at the level of the torso of a diver, without constraining the umbilicus (0D) of the Direct System (DS). According to the preferred embodiment of the invention, the movements from top to bottom and from bottom to top of the mobile structure (SM) on and with respect to the carrier structure (SP) are controlled by the manual action of the plunger on a control means (CM) for firstly let the gas (A) from the diving bottles into the pneumatic cylinder (VP) and secondly let the gas (A) contained in said pneumatic cylinder (VP) ) escape from it (VP). (See Fig 3.4). According to the preferred embodiment of the invention, the amplitude of the movements of the mobile structure (SM) on and with respect to the carrier structure (SP) is limited by the adjustment of the pneumatic cylinder (VP) fixed on a main plane the "carrier structure" (SP) or by adding mechanical stops. According to the preferred embodiment of the invention, the set of two structures: "mobile structure" (SM) and "carrier structure" (SP) constituting the device of the invention, is designed to be easily removable and / or foldable so as to reduce its size and facilitate its transport, for example in the trunk of a motor vehicle.

According to the preferred embodiment of the invention, the set of two structures: "mobile structure" (SM) and "carrier structure" (SP) constituting the device of the invention, is provided with a preferably mechanical device allowing to prohibit its operation that is to say the movement of the "mobile structure" (SM) on the "carrier structure" (SP) and / or a preferably mechanical device to prohibit its displacement.

Claims (10)

CLAIMS1.- Lift mobile device for the installation of a scuba apparatus on the back of a plunger, characterized in that it comprises functionally associated: a movable structure (SM) sliding freely on a carrier structure (SP) for supporting and raising a scuba gear equipped with at least one diving bottle, at the level of the torso of a plunger, by the action of a pneumatic cylinder (VP) fed by the compressed gas (A) coming from the bottle of scuba diving equipped scuba. 10 2.- mobile lifting device for the installation of a self-contained breathing apparatus on the back of a plunger according to claim 1, characterized in that the carrier structure (SP) on which the movable structure (SM) slides consists of a metal support member (C1) provided with a gripping means (EP), a displacement means 15 consisting of at least one wheel (RT) for rolling on any type of terrain, a stabilizing means ( EC) and a pneumatic jack (VP) for moving the mobile structure (SM) on the carrier structure (SP), 3. Lift mobile device for the installation of a self-contained diving suit on the back of a plunger according to the preceding claims, characterized in that the mobile structure (SM) sliding on the carrier structure (SP) consists of a metal support element (C2) carrying at a location compatible with the operation of the device and perpendicular to its main axis and the main plane of one of its faces, a support plate (BS) of shape and dimensions adapted and sufficient to receive in support on it, a scuba diving suit equipped with at least one bottle of compressed air. 4.- elevating mobile device for installing a scuba apparatus on the back of a plunger according to any one of the preceding claims, characterized in that the movable structure (SM) slides on the carrier structure (SP) by the action of a pneumatic jack (VP) integral with said supporting structure (SP), on the connecting element (CO) of which is connected the connecting element (RO) of the umbilicus (0D) of the Direct System (DS) of the self-contained breathing apparatus, said pneumatic cylinder (VP) causing on the one hand the elevation of the mobile structure (SM) and consequently that of the autonomous scuba gear equipped with at least one compressed air cylinder, when It is filled with gas (A) from the scuba diving cylinder (s) worn and the lowering of the mobile structure (SM) when the gas (A) contained therein is released. 5.- elevating mobile device for installing a scuba apparatus on the back of a plunger according to any one of the preceding claims, characterized in that the movable structure (SM) slides on the carrier structure (SP) by the action of a pneumatic cylinder (VP) integral with said carrier structure (SP), on the connection element (CO) of which is connected the connecting element (RO) of the umbilicus (OD) of the Direct System (DS) of the scuba gear, said pneumatic cylinder (VP) causing on the one hand the lowering of the mobile structure (SM) when it is filled with gas (A) from the scuba diving bottle (s) of the scuba carried and on the other hand the elevation of the mobile structure (SM) and therefore that of the scuba gear equipped with at least one diving bottle, when the gas (A) it contains is released. 6. Lift mobile device for installing a scuba apparatus on the back of a plunger according to any one of the preceding claims, characterized in that the mobile structure (SM) slides on the carrier structure (SP) at means of a pneumatic cylinder (VP) integral with said carrier structure (SP), controlled by the action of the plunger on a control box (CM) for filling and emptying the cylinder cylinder (VP) and consecutively raising or lowering the structure mobile (SM) on and with respect to the carrier structure (SP), 7.- elevating mobile device for installing a scuba apparatus on the back of a plunger according to any one of the preceding claims, characterized in that the amplitude of the displacements of the movable structure (SM) on and by relative to the carrier structure (SP) is limited in high point and low point of the device by the adjustment of the pneumatic cylinder (VP) itself or by reported mechanical stops. 8.- elevating mobile device for installing a scuba apparatus on the back of a plunger according to any one of the preceding claims, characterized in that the carrier structure (SP) on which slides the mobile structure (SM) has a mechanical means integrated or reported to allow the immobilization of the device in the operative position by locking or retraction of the wheels (RT) .35 9. A lifting mobile device for the installation of a diving suit on the back of a plunger according to any one of the preceding claims, characterized in that the movement of the mobile structure (SM) on and with respect to the carrier structure (SP) is made impossible by a reported mechanical safety means prohibiting the use of the device by an unauthorized person. 10.- Lift mobile device for installing a self-contained diving suit on the back of a plunger according to any one of the preceding claims, characterized in that the mobile structure (SM) and the carrier structure (SP) are detachable. , removable and / or foldable for easy transport including in the trunk of a vehicle. 20 25 30 35 40